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    CORTEX 5 Search Results

    CORTEX 5 Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    TMPM3HMFYAFG Toshiba Electronic Devices & Storage Corporation Arm Cortex-M3 Core Based Microcontroller/32bit/P-LQFP80-1212-0.50-003 Visit Toshiba Electronic Devices & Storage Corporation
    TMPM3HPFYADFG Toshiba Electronic Devices & Storage Corporation Arm Cortex-M3 Core Based Microcontroller/32bit/P-LQFP128-1420-0.50-001 Visit Toshiba Electronic Devices & Storage Corporation
    TMPM3HNFDBFG Toshiba Electronic Devices & Storage Corporation Arm Cortex-M3 Core Based Microcontroller/32bit/P-LQFP100-1414-0.50-002 Visit Toshiba Electronic Devices & Storage Corporation
    TMPM3HLFYAUG Toshiba Electronic Devices & Storage Corporation Arm Cortex-M3 Core Based Microcontroller/32bit/P-LQFP64-1010-0.50-003 Visit Toshiba Electronic Devices & Storage Corporation
    TMPM3HNFZAFG Toshiba Electronic Devices & Storage Corporation Arm Cortex-M3 Core Based Microcontroller/32bit/P-LQFP100-1414-0.50-002 Visit Toshiba Electronic Devices & Storage Corporation

    CORTEX 5 Datasheets Context Search

    Catalog Datasheet Type Document Tags PDF

    Untitled

    Abstract: No abstract text available
    Text: WANDBOARD ORG Freescale i.MX6 Cortex-A9 Low cost open source community Development Board Dimensional drawing 95 mm 95 mm Specifications Wandboard Solo Wandboard Dual Wandboard Quad i.MX6 Solo i.MX6 DualLite i.MX6 Quad ARM Cortex-A9 ARM Cortex-A9 ARM Cortex-A9


    Original     		PDF

    Cortex-M4 mmu

    Abstract: cortex-m4 cortexm4 0xE000ED2C 0xE000ED38 0xE000E
    Text: Application Note 209 Using Cortex-M3 and Cortex-M4 Fault Exceptions Abstract The Cortex-M processors implement an efficient exception model that also traps illegal memory accesses and several incorrect program conditions. This application note describes the Cortex-M fault exceptions from the programmers view and


    Original     		PDF

    BGA256

    Abstract: No abstract text available
    Text: NXP 204-MHz, 32-bit Cortex-M4/ Cortex-M0 MCU LPC4300 series Cortex-M4 MCUs with Cortex-M0 coprocessor, HS USB, and more Multiple cores and a unique set of configurable peripherals make it easy to develop advanced applications within a single architecture and development environment.


    Original     		204-MHz, 32-bit LPC4300 32-bit 10/100T LPC4370 BGA256 PDF

    ARM LPC1768 instruction set

    Abstract: mbed LPC1768 ARM cortex R7 processor LPC3154 cmsis lpc1768 knight rider stripboard instruction set for PIC18 series using c compiler LPC1768 MSP430F5438
    Text: Get Better Code Density than 8/16 bit MCU’s NXP LPC1100 Cortex M0 Oct 2009 Outline Introduction ARM Cortex-M0 processor Why processor bit width doesn’t matter – Code size – Performance – Cost Conclusions 2 ARM Cortex-M Processors Cortex-M family optimised for deeply embedded


    Original     		LPC1100 32-bit 16-bit ARM LPC1768 instruction set mbed LPC1768 ARM cortex R7 processor LPC3154 cmsis lpc1768 knight rider stripboard instruction set for PIC18 series using c compiler LPC1768 MSP430F5438 PDF

    PFUZE100

    Abstract: arm cortex a9
    Text: conga-QMX6 Formfactor Qseven Rev. 1.20, 70x70 mm CPU Freescale i.MX6 Solo ARM Cortex A9 up to 1.0 GHz, 512B L2 cache Freescale® i.MX6 Dual Lite ARM Cortex A9 up to 1.0 GHz, 512KB L2 cache Freescale® i.MX6 Dual ARM Cortex A9 up to 1.0GHz, 1MB L2 cache Freescale® i.MX6 Quad ARM Cortex A9 up to 1.0GHz, 1MB L2 cache


    Original     		70x70 512KB 533MHz PFUZE100 arm cortex a9 PDF

    Untitled

    Abstract: No abstract text available
    Text: NXP 180 MHz, 32-bit Cortex-M4 /Cortex-M0 DSC LPC4300 series First asymmetrical, dual-core digital signal controller featuring Cortex-M4 & Cortex-M0 A dual-core architecture and a unique set of configurable peripherals make it possible to develop DSP and MCU applications within a single architecture and development environment.


    Original     		32-bit LPC4300 32-bit 10/100T LQFP208, BGA256, BGA180 PDF

    BGA180

    Abstract: No abstract text available
    Text: NXP 150 MHz, 32-bit Cortex-M4 /Cortex-M0 DSC LPC4300 series First asymmetrical, dual-core digital signal controller featuring Cortex-M4 & Cortex-M0 A dual-core architecture and a unique set of configurable peripherals make it possible to develop DSP and MCU applications within a single architecture and development environment.


    Original     		32-bit LPC4300 32-bit LQFP208, BGA256, BGA180 BGA180 PDF

    Untitled

    Abstract: No abstract text available
    Text: NXP 204 MHz, 32-bit Cortex-M4 /Cortex-M0 DSC LPC4300 series First asymmetrical, dual-core digital signal controller featuring Cortex-M4 & Cortex-M0 A dual-core architecture and a unique set of configurable peripherals make it possible to develop DSP and MCU applications within a single architecture and development environment.


    Original     		32-bit LPC4300 32-bit 10/100T LQFP208, BGA256, BGA180 PDF

    HVQFN33

    Abstract: lpc1114 LPC1114FHN33 lpc1111fhn33 LPC1100 LPC111 LPC1114FBD48 LPC1114FBD48/301 LPC111x LPC1112
    Text: NXP 50-MHz, 32-bit Cortex-M0 microcontrollers LPC1100 Cortex-M0 based microcontrollers with industry-leading power and efficiency Built around the new Cortex-M0 architecture, the smallest, lowest power, and most energy-efficient ARM core ever developed, these MCUs are ideally equipped for use in many traditional 8/16-bit


    Original     		50-MHz, 32-bit LPC1100 8/16-bit HVQFN33 LQFP48 PLCC44 HVQFN33 lpc1114 LPC1114FHN33 lpc1111fhn33 LPC1100 LPC111 LPC1114FBD48 LPC1114FBD48/301 LPC111x LPC1112 PDF

    LPC1100

    Abstract: Cortex-M0
    Text: NXP 50-MHz, 32-bit Cortex-M0 microcontrollers LPC1100 Cortex-M0 based microcontrollers with industry-leading power and efficiency Built around the new Cortex-M0 architecture, the smallest, lowest power, and most energy-efficient ARM core ever developed, these MCUs are ideally equipped for use in battery-powered consumer


    Original     		50-MHz, 32-bit LPC1100 50-MHz 002aae600 LPC1100 Cortex-M0 PDF

    NUC140VE3AN

    Abstract: NUC140 NUC140VD3AN A110 22
    Text: Preliminary NUC140 Series Cortex -M0 32-bit Microcontroller 1 GENERAL DESCRIPTION The NUC140 series are 32-bit microcontrollers with embedded ARM Cortex™-M0 core for industrial control and applications which need rich communication interfaces. The Cortex™-M0


    Original     		NUC140 32-bit 50MHz 64K/128K-byte 8K/16K-byte 12-bit NUC140VE3AN NUC140VD3AN A110 22 PDF

    Untitled

    Abstract: No abstract text available
    Text: NXP 50-MHz, 32-bit Cortex-M0 microcontrollers LPC1100L Cortex-M0 MCUs with lowest active power and superior code density Built around the new Cortex-M0 architecture, the smallest, lowest power, and most energy-efficient ARM core ever developed, these MCUs are ideally equipped for use in many traditional 8/16-bit


    Original     		50-MHz, 32-bit LPC1100L 8/16-bit LQFP48 LPC1114FA44/3/x02 PLCC44 PDF

    nuc100ve3an

    Abstract: NUC100VD3AN NUC100LD2AN NUC100RE3AN 5 pin LDO IC - pd11 NUC100LE3AN NUC100LC1AN NUC100LD3AN NUC100LD1AN NUC100
    Text: Preliminary NUC100 Series Cortex -M0 32-bit Microcontroller 1 GENERAL DESCRIPTION The NUC100 series are 32-bit microcontrollers with embedded ARM Cortex™-M0 core for industrial control and applications need high-speed serial interfaces. The Cortex™-M0 is the


    Original     		NUC100 32-bit 50MHz 32K/64K/128K-byte 4K/8K/16K-byte 12-bit nuc100ve3an NUC100VD3AN NUC100LD2AN NUC100RE3AN 5 pin LDO IC - pd11 NUC100LE3AN NUC100LC1AN NUC100LD3AN NUC100LD1AN PDF

    NUC130VE3AN

    Abstract: NUC130 LQFP-64 footprint
    Text: Preliminary NUC130 Series Cortex -M0 32-bit Microcontroller 1 GENERAL DESCRIPTION The NUC130 series are 32-bit microcontrollers with embedded ARM Cortex™-M0 core for industrial control and applications support CAN bus network. The Cortex™-M0 is the newest


    Original     		NUC130 32-bit 50MHz 64K/128K-byte 8K/16K-byte 12-bit NUC130VE3AN LQFP-64 footprint PDF

    C6748 EDMA

    Abstract: OMAP-L138 setup USB interrupts of arm9 TMDXOSKL138BET UART Program Examples ARM edma3 c6748 OMAP-L138 arm sata nand control OMAP-L138 arm9 c674x floating point dsp 32-KBL1D
    Text: Texas Instruments OMAPL1x—based on ARM9 Low Power SoCs TI embedded processors ARM DSP C6000 Multi-core C64x DM644x Performance Power Cortex A8 DM646x OMAP4 OMAP35x ARM9 Cortex A8 C5000 C67x/C64x C674x C2000 MSP430 Cortex M3 ARM Core Code Compatibility ISA


    Original     		C6000 DM644x DM646x OMAP35x C5000 C67x/C64x C674x C2000 MSP430 C6748 EDMA OMAP-L138 setup USB interrupts of arm9 TMDXOSKL138BET UART Program Examples ARM edma3 c6748 OMAP-L138 arm sata nand control OMAP-L138 arm9 c674x floating point dsp 32-KBL1D PDF

    Mictor 38 connecter

    Abstract: ulink2 samtec asp connector 0.05 ftsh cortex m0 20-pin JTAG interface connector 26 pins connector connector 30 pin IDC Coresight cortex architecture idc connector 10 pin
    Text: Cortex-M Debug Connectors Overview The debug connectors for Cortex microcontrollers will be migrating to new debug connectors. Currently the KEIL ULINK2 already supports one of the new debug connector arrangements and the coming ULINK-Pro supports both new debug connector arrangements. A number of Cortex


    Original     		M4h/DDI0314H ddi0314h/Chdcdggc ihi0014o/index faqs/ka13519 MCBSTM32E faqs/ka13520 Mictor 38 connecter ulink2 samtec asp connector 0.05 ftsh cortex m0 20-pin JTAG interface connector 26 pins connector connector 30 pin IDC Coresight cortex architecture idc connector 10 pin PDF

    BGA256

    Abstract: lpc1800 TBGA100 LQFP144 LPC1810 LPC1833 LPC1837 LPC1850 LQFP208 LPC1817
    Text: NXP 150 MHz, 32-bit Cortex-M3 microcontrollers LPC1800 Fastest Cortex-M3 MCU, Largest SRAM, High Speed USB The LPC1800 series of low power, high-performance Cortex-M3 MCUs features frequencies up to 150 MHz and flexible Dual-Bank Flash for the highest reliability in-application re-programming.


    Original     		32-bit LPC1800 LPC1800 32-bit 10-bit LQFP208, BGA256, BGA180 BGA256 TBGA100 LQFP144 LPC1810 LPC1833 LPC1837 LPC1850 LQFP208 LPC1817 PDF

    LPC1300

    Abstract: HVQFN33 uart for lpc1343 LPC1313 cortex cpu LPC1100 LQFP48 LPC1311 LPC1342 LPC1343
    Text: NXP 70-MHz, 32-bit Cortex-M3 microcontrollers LPC1300 Industry’s lowest power Cortex-M3 based microcontrollers NXP brings a new level of power performance to the ARM architecture with the LPC1300 series, the industry’s lowest-power Cortex-M3 MCUs. These new MCUs consume approximately 200 µA/MHz,


    Original     		70-MHz, 32-bit LPC1300 LPC1300 16/32-bit 70-MHz LQFP48, HVQFN33 HVQFN33 uart for lpc1343 LPC1313 cortex cpu LPC1100 LQFP48 LPC1311 LPC1342 LPC1343 PDF

    ADC 12BIT I2C NXP

    Abstract: LPC1700 i2c LPC1700 baud rate CONVERTER FOR RS 485 TO ETHERNET I2C Peripherals rs-485 modem LPC1768 LQFP80 LQFP100 LPC176x
    Text: 100 MHz, 32-bit Microcontrollers with Cortex-M3 core, LPC1700 series Cortex-M3 based microcontrollers with Ethernet, USB, CAN and 12-bit ADC The LPC1700 series of low power cost-effective Cortex-M3 microcontrollers feature bestin-class peripheral support such as Ethernet, USB 2.0 Host/OTG/Device, and CAN 2.0B.


    Original     		32-bit LPC1700 12-bit 10-bit ADC 12BIT I2C NXP LPC1700 i2c baud rate CONVERTER FOR RS 485 TO ETHERNET I2C Peripherals rs-485 modem LPC1768 LQFP80 LQFP100 LPC176x PDF

    mbed LPC1768

    Abstract: LPC1754 lpc1769 LPC1768 NXP LPC1768 DMA LQFP80 lpc1756 LPC1759 LPC175x NXP LPC1768
    Text: 120 MHz, 32-bit Microcontrollers with Cortex-M3 core, LPC1700 series Cortex-M3 based microcontrollers with Ethernet, USB, CAN and 12-bit ADC The LPC1700 series of low power cost-effective Cortex-M3 microcontrollers feature bestin-class peripheral support such as Ethernet, USB 2.0 Host/OTG/Device, and CAN 2.0B.


    Original     		32-bit LPC1700 12-bit 10-bit mbed LPC1768 LPC1754 lpc1769 LPC1768 NXP LPC1768 DMA LQFP80 lpc1756 LPC1759 LPC175x NXP LPC1768 PDF

    LPC1700 i2c

    Abstract: NXP LPC1768 LPC1768 lpc1769 LPC1759 mbed LPC1768 LQFP100 lqfp80 CAN lpc17xx LPC175x
    Text: 120 MHz, 32-bit Microcontrollers with Cortex-M3 core, LPC1700 series Cortex-M3 based microcontrollers with Ethernet, USB, CAN and 12-bit ADC The LPC1700 series of low power cost-effective Cortex-M3 microcontrollers feature bestin-class peripheral support such as Ethernet, USB 2.0 Host/OTG/Device, and CAN 2.0B.


    Original     		32-bit LPC1700 12-bit 10-bit UpLPC1700Leaflet LPC1700 i2c NXP LPC1768 LPC1768 lpc1769 LPC1759 mbed LPC1768 LQFP100 lqfp80 CAN lpc17xx LPC175x PDF

    can bootloader LPC11C14

    Abstract: LPC11C14 LPC11Cx LPC11C14f lpc11c14fbd48 LPC11C12FBD48 LQFP48 canopen object dictionary LPC11* bootloader
    Text: LPC11C12/C14 32-bit ARM Cortex-M0 microcontroller; 16/32 kB flash, 8 kB SRAM; C_CAN Rev. 1 — 21 September 2010 Product data sheet 1. General description 32-bit ARM Cortex-M0 microcontroller The LPC11C12/C14 are an ARM Cortex-M0 based, low-cost 32-bit MCU family, designed


    Original     		LPC11C12/C14 32-bit LPC11C12/C14 8/16-bit RS-485/EIA-485 can bootloader LPC11C14 LPC11C14 LPC11Cx LPC11C14f lpc11c14fbd48 LPC11C12FBD48 LQFP48 canopen object dictionary LPC11* bootloader PDF

    Untitled

    Abstract: No abstract text available
    Text: AM5K2E04, AM5K2E02 SPRS864B—June 2013—Revised January 2014 Multicore ARM KeyStone II System-on-Chip SoC 1 AM5K2E04/02 Features and Description • ARM Cortex -A15 MPCore™ CorePac – Up to Four ARM Cortex-A15 Processor Cores at up to 1.4-GHz – 4MB L2 Cache Memory Shared by all Cortex-A15


    Original     		AM5K2E04, AM5K2E02 SPRS864Bâ AM5K2E04/02 Cortex-A15 Cortex-A15 PDF

    Untitled

    Abstract: No abstract text available
    Text: AM5K2E04, AM5K2E02 SPRS864B—June 2013—Revised January 2014 Multicore ARM KeyStone II System-on-Chip SoC 1 AM5K2E04/02 Features and Description • ARM Cortex -A15 MPCore™ CorePac – Up to Four ARM Cortex-A15 Processor Cores at up to 1.4-GHz – 4MB L2 Cache Memory Shared by all Cortex-A15


    Original     		AM5K2E04, AM5K2E02 SPRS864Bâ AM5K2E04/02 Cortex-A15 Cortex-A15 PDF